Sheet finishing apparatus

ABSTRACT

A sheet finishing apparatus of the present invention is composed of, in horizontal matching on a standby tray, a horizontal matching damper portion for mitigating a shock to the side of each of the sheets of paper and a horizontal matching member composed of a horizontal matching plate portion which supports the horizontal matching damper portion and is connected to it via a connection portion having elastic force. Even if the horizontal matching damper portion receives force in the direction of the width of the sheets of paper, it intends to return to its original position, so that smooth horizontal matching can be executed.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a sheet finishing apparatus for post-processing sheets of paper ejected from an image forming apparatus such as a copier, a printer, or a composite device.

2. Description of the Related Art

In recent years, there has been an image forming apparatus used in which to perform a post process of sorting and stapling sheets of paper after image forming, a sheet finishing apparatus is installed adjacent to the paper ejection unit of the image forming apparatus body. In such a sheet finishing apparatus, after the end of the post process of a preceding sheet of paper, the post process is performed for a succeeding sheet of paper. To make the succeeding sheet of paper ejected from the image forming apparatus body like this stand by, there is an apparatus having a shifting path such as a standby tray installed halfway down the path leading to the stapler.

When temporarily loading a plurality of sheets of paper on the standby tray until the process by the processing tray ends, the sheets of paper are matched horizontally and the members necessary for horizontal matching are composed of, for example, a horizontal matching plate, a horizontal matching damper, and a spring. Therefore, a simple constitution including very few members necessary for horizontal matching is required.

DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view showing the essential section of the sheet finishing apparatus relating to an embodiment of the present invention.

FIG. 2 is a top view showing the essential section of the sheet finishing apparatus relating to an embodiment of the present invention.

FIG. 3 is a schematic block diagram showing the sheet finishing apparatus relating to an embodiment of the present invention.

FIG. 4 is a perspective view showing the stapler of the sheet finishing apparatus relating to an embodiment of the present invention.

FIG. 5 is a perspective view showing the vertical matching roller relating to an embodiment of the present invention.

FIG. 6 is an illustration showing the paddle relating to an embodiment of the present invention.

FIG. 7 is a schematic perspective view showing the standby tray and processing tray relating to an embodiment of the present invention.

FIG. 8 is a top view showing the standby tray and processing tray relating to an embodiment of the present invention.

FIG. 9 is a schematic perspective view showing the horizontal matching plate and conveying belt relating to an embodiment of the present invention.

FIG. 10 is an illustration showing the condition that a sheet of paper on the standby tray or paper ejection tray relating to an embodiment of the present invention is pressed out.

FIG. 11 is an illustration showing the movement of the standby tray relating to an embodiment of the present invention.

FIG. 12 is an illustration showing the standby tray guide and assist arm relating to an embodiment of the present invention.

FIG. 13 is an illustration showing an arrangement example of the standby tray guide and assist arm relating to an embodiment of the present invention.

FIGS. 14A and 14B are illustrations showing the consistency of the posture of a sheet of paper positioned by the standby tray guide and assist arm on the standby tray.

FIG. 15 is an illustration showing the horizontal matching plate relating to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

Throughout this description, the embodiments and examples shown should be considered as exemplars, rather than limitations on the apparatus of the present invention.

Hereinafter, the embodiment of the present invention will be explained in detail with reference to the accompanying drawings.

Further, in each drawing, to the same parts, the same numerals are assigned and duplicated explanation will be omitted. FIG. 1 is a perspective view showing the essential section of a sheet finishing apparatus 7 relating to an embodiment of the present invention, and FIG. 2 is a top view showing the essential section of the sheet finishing apparatus relating to an embodiment of the present invention, and FIG. 3 is a schematic block diagram showing the sheet finishing apparatus 7 arranged adjacent to an image forming apparatus 5 such as a copier.

The sheet finishing apparatus 7 is basically composed of a standby tray 10, a processing tray 12, a stapler 14, a first paper ejection tray 16, and a second paper ejection tray 18.

A sheet of paper P, which an image is formed thereon by the image forming apparatus 5 such as a copier and ejected from a pair of paper ejection rollers 6, is received by a pair of inlet rollers 22, is supplied to a pair of paper supply rollers 24, and is sent from the paper supply rollers 24 to the standby tray 10. The inlet rollers 22 are driven by an inlet roller motor 26. Between the inlet rollers 22 and the standby tray 10, a paper path ceiling 36 for leading the sheet of paper P to the paper supply rollers 24 is installed. The inlet rollers 22 are composed of an upper inlet roller 22 a and a lower inlet roller 22 b. The paper supply rollers 24 are also composed of an upper paper supply roller and a lower paper supply roller. The standby tray 10 temporarily loads a plurality of sheets of paper P until the processing tray 12 finishes to process the sheets of paper.

As shown in FIG. 12, on the standby tray 10 on the rear end side of the sheet of paper P, a standby tray guide 11 is arranged. The standby tray guide 11 controls the movement and position of sheets of paper P sent from the paper supply rollers 24 to the standby tray 10.

Generally, when a sheet of paper P printed on one side thereof is set with the printed side down, since ink is shrunk, the sheet of paper P is curled upward. Therefore, the standby tray guide 11 is born rotatably on the side of the standby tray 10 and the front end thereof is rounded so as to crush the upward curl of the sheet of paper P.

Furthermore, an assist arm 13 in a lever shape is born rotatably by the mounting shaft of the paper supply rollers 24. The assist arm 13, to prevent the rear end side of a sheet of paper P conveyed powerfully from the paper supply rollers 24 from rising, presses it to the standby tray. The side of the assist arm 13 in contact with the sheet of paper P is formed slightly heavily so as to surely prevent the sheet of paper P from unexpected movement.

As shown in FIG. 13, the standby tray guide 11 is composed of 11 a and 11 b which are arranged right and left almost in accordance with the width of the sheet of paper P. Further, the assist arm 13 composed of four assist arms 13 a, 13 b, 13 c, and 13 d are installed and arranged between the standby tray guides 11 a and 11 b in the drawing. Further, to prevent the assist arms 13 from variations in movement, the adjacent assist arms 13 b and 13 c may be connected.

Under the standby tray 10, the processing tray 12 for loading sheets of paper P dropped and supplied from the standby tray 10 is arranged.

The processing tray 12, while sheets of paper P are stapled by the stapler 14 which is a processing mechanism for performing the post process, matches and supports the sheets of paper P to be loaded.

As shown in FIG. 7, when a predetermined number of sheets of paper is stored in the standby tray 10, standby tray parts 10 a and 10 b are opened in the horizontal direction in the drawing by a standby tray motor 34 and the sheets of paper P are dropped on the processing tray 12 by their own weight.

As shown in FIG. 4, the stapler 14 is positioned by a stapler driving unit 49 and the stapling process is controlled. The processing tray 12 has a pair of matching rollers, upper vertical matching roller 38 a and lower vertical matching roller 38 b shown in FIG. 5 for matching a plurality of sheets of paper P dropped and supplied from the standby tray 10 in the vertical direction which is the conveying direction. The upper and lower vertical matching rollers 38 a and 38 b serve as bundle conveying rollers for clamping a sheet bundle T after the end of the stapling process and taking it out from the stapler 14. The upper vertical matching roller 38 a is driven by a vertical matching upper roller motor 40 and the lower vertical matching roller 38 b is driven by a vertical matching lower roller motor 42.

When sheets of paper P are dropped and supplied onto the processing tray 12, at the position where the rear end of each sheet of paper P is dropped, a paddle 44 rotatable for matching the uppermost sheet of paper P loaded on the processing tray 12 in the vertical direction is arranged. The paddle 44, as shown in FIG. 6, has a receiver 44 a for receiving sheets of paper P dropped and supplied onto the processing tray 12, a tapping portion 44 b for tapping down sheets of paper P onto the processing tray 12, and a feeder 44 c for matching sheets of paper P on the processing tray 12 and is driven by a paddle motor 46. The paddle 44 is made of rubber and is elastic.

When temporarily loading a plurality of sheets of paper P on the standby tray until the process by the processing tray ends, a sheet of paper loaded first must be prevented from being pressed out by a succeeding sheet of paper ejected. Further, when a sheet of paper P is curled upward, the paddle 44 runs idle.

Therefore, as shown in FIG. 12, to retain the rear end of the first sheet of paper P at the downstream side part of the standby tray 10, a chuck 15 is installed so as to be positioned between the lower paper supply roller 24 and the paddle 44.

At the end of the processing tray 12 on the side of the stapler 14, a stopper 45 for making contact with the rear end of each sheet of paper P and controlling the rear end position is installed. Almost at the center of the processing tray 12, a conveying belt 50 for conveying a sheet bundle T which is stapled and taken out from the stapler 14 by the upper and lower vertical matching rollers 38 a and 38 b to the first or second paper ejection tray 16 or 18 is installed. To the conveying belt 50, a feeding pawl 50 a for catching the rear end of the sheet bundle T is attached.

The standby tray 10 can drop and supply sheets of paper P to the processing tray 12 and also can convey the sheets of paper P toward the first or second paper ejection tray 16 or 18. Conveying of the sheets of paper P toward the paper ejection trays 16 and 18 is executed by a standby tray roller 28 for matching sheets of paper P making contact with the sheets of paper P on the standby tray 10.

The standby tray roller 28 is controlled to move up and down by a standby tray roller driving source 30 and is driven to rotate by a standby tray roller motor 32.

The standby tray 10 is arranged at an angle of inclination of θ1 so as to support sheets of paper P in a state that the front end of each sheet of paper P is positioned higher than the rear end thereof. The first or second paper ejection tray 16 or 18 is moved up and down by a paper ejection tray driving unit 52 and either of them is selected. The first or second paper ejection tray 16 or 18, when loading sheets of paper P, is moved up or down at an almost same height as that of the standby tray 10 or the processing tray 12 so as to improve the consistency of the posture of sheets of paper P ejected. Further, the first or second paper ejection tray 16 or 18 is arranged at an angle of inclination of θ2 so as to support sheets of paper P in a state that the front end of each sheet of paper P is positioned higher than the rear end thereof.

As shown in FIGS. 7 and 8, the standby tray 10 has the pair of tray members 10 a and 10 b formed so as to project from the wall surface thereof, receives each sheet of paper P by sliding in accordance with the width of the sheet of paper P, and supports both sides of the sheet of paper P. On the tray members 10 a and 10 b, standby stoppers 10 c and 10 d for controlling the rear end of each sheet of paper P are installed.

The standby tray 10 is slidden and moved by the standby tray motor 34. Between the standby tray 10 and the processing tray 12, when dropping and supplying sheets of paper P from the standby tray 10 onto the processing tray 12, horizontal matching plates 47 a and 47 b, shown in FIG. 9, for horizontally matching the sheets of paper P to prevent them from being disordered in the horizontal direction perpendicular to the conveying direction are installed. The horizontal matching plates 47 a and 47 b are formed so as to slide in the direction v in accordance with the width of the sheets of paper P by a horizontal matching motor 48.

By referring to FIG. 15, the horizontal matching plate 47 a will be explained in detail. The horizontal matching plate 47 b has the same constitution as that of the horizontal matching plate 47 a. The horizontal matching plate 47 a is composed of a horizontal matching damper portion 47 c, when horizontally matching sheets of paper P, for mitigating a shock to the side of each of the sheets of paper P and a horizontal matching plate portion 47 e which supports the horizontal matching damper portion 47 c and is connected to it via a connection portion 47 d having elastic force. Therefore, even if the horizontal matching damper portion 47 c receives force in the direction of the width of the sheets of paper P, it intends to return to its original position, so that smooth horizontal matching can be executed.

The horizontal matching plate portion 47 e, except the connection portion 47 d, is hollowed out in an inner peripheral shape almost similar to the outer peripheral shape of the horizontal matching damper portion 47 c. The reason is that at the time of horizontal matching, the horizontal matching damper portion 47 c prevents unexpected movement.

A surface 47 f of the horizontal matching damper portion 47 c is positioned one step higher than a surface 47 g of the horizontal matching plate portion 47 e. The reason is that each sheet of paper P makes contact earlier with the horizontal matching damper portion 47 c.

A part of the horizontal matching plate 47 a is preferably made elastic. For example, the horizontal matching plate portion 47 e may be composed of a rigid body and the elastic horizontal matching damper portion 47 c may be composed of an elastic body. Further, both horizontal matching plate portion 47 e and horizontal matching damper portion 47 c may be composed of an elastic body. In this case, the horizontal matching damper portion 47 c and the horizontal matching plate portion 47 e can be molded and connected by the connection portion 47 d having elastic force.

Next, the operation of the invention will be described. When an image is formed by the image forming apparatus 5 and a sheet of paper P is supplied from the paper ejection rollers 6, the sheet finishing apparatus 7 performs a different operation depending on execution of the post process of the sheet of paper P or no execution thereof, or during execution of the post process of the preceding sheet of paper P or end of the post process.

When the post process is not performed, for example, the first paper ejection tray 16 slides and moves to the position indicated by the dotted line shown in FIG. 3 and can load sheets of paper ejected from the standby tray 10 in consistent good posture. When the post process is not performed, sheets of paper P conveyed from the inlet roller 22 via the paper path ceiling 36 to the paper supply rollers 24 are supplied to the standby tray 10 by the paper supply rollers 24. Then, the sheets of paper P are conveyed by the standby tray roller 28 moved down onto the standby tray 10 and rotated in the direction of the arrow f and are ejected to the first paper ejection tray 16.

In this way, sheets of paper are sequentially loaded on the first paper ejection tray 16. At this time, the first paper ejection tray 16 is arranged at an angle of inclination of θ2 and the front end of each sheet of paper is positioned higher than the rear end thereof, so that for example, even if a sheet of paper P is ejected onto the first paper ejection tray 16 in a state that it is curved convexly as shown by the dotted line in FIG. 10, the sheet of paper P precedingly loaded on the paper ejection tray 16 is not pressed out by contact with the front end of the succeeding sheet of paper P. Namely, the ejected sheet of paper P is sequentially loaded on the first paper ejection tray 16 unless the order is disturbed. Further, even if the preceding sheet of paper P is slightly shifted by being pressed by the succeeding sheet of paper P, the angle of inclination θ2 is provided, so that the sheet of paper P drops by its own weight and is matched and loaded on the first paper ejection tray 16 in the state that the rear end is properly arranged, and the ejection process of the sheets of paper P is completed.

Next, a case that the stapling process which is the post process is to be performed and there is no preceding sheet of paper P during execution of the stapling process on the processing tray 12 will be described. At this time, the standby tray 10 slides and moves the tray members 10 a and 10 b respectively up to the positions indicated by the dotted lines shown in FIG. 11 in the direction of the arrow m and the direction of the arrow n and opens the drop and supply path of sheets of paper P. Further, the horizontal matching plates 47 a and 47 b, to horizontally match sheets of paper P dropped from the paper supply rollers 24, are arranged so that the interval between the horizontal matching plates 47 a and 47 b becomes almost equal to the width of the sheets of paper P. By doing this, the sheets of paper P supplied from the paper supply rollers 24 are directly dropped and supplied onto the processing tray 12 unless the conveyance is interrupted by the standby tray 10.

At the time of drop and supply, the upper vertical matching roller 38 a is shifted upward and the receiver 44 a of the paddle 44 receives the rear end of each sheet of paper P. The sheet of paper P drops in a state that both sides thereof are in contact with the horizontal matching plates 47 a and 47 b and is matched horizontally. Then, the paddle 44 rotates in the direction of the arrow o and the rear end of the sheet of paper P drops from the receiver 44 a and is tapped down onto the processing tray 12 by the tapping portion 44 b. Furthermore, the paddle 44 sends the sheet of paper P in the direction of the arrow q by the feeder 44 c, and the rear end of the sheet of paper P makes contact with the stopper 45, and the matching of the sheet of paper P in the vertical direction is completed. Further, the vertical matching of sheets of paper P on the processing tray 12 may be executed by the upper vertical matching roller 38 a by moving it up and down each time.

In this way, the sheets of paper P with an image formed thereon are sequentially matched in the horizontal direction and vertical direction and are loaded directly on the processing tray 12 from the paper supply rollers 24. When the sheets of paper P reach a predetermined number of sheets, the stapler 14 staples and bundles the sheets of paper P on the processing tray 12 at a desired position to form a sheet bundle T. Hereafter, the upper vertical matching roller 38 a moves down on the sheet bundle, and the sheet bundle T is clamped by the upper vertical matching roller 38 a rotating in the direction of the arrow r and the lower vertical matching roller 38 b rotating in the direction of the arrow s and is conveyed toward the first paper ejection tray 16. When the rear end of the sheet bundle T passes the upper and lower vertical matching rollers 38 a and 38 b, it is caught by the feeding pawl 50 a of the conveying belt 50 rotating in the direction of the arrow t and the bundle is sent onto the first paper ejection tray 16.

At this time, the first paper ejection tray 16 slides and moves from the position indicated by the dotted line in FIG. 3 to the position indicated by the solid line. Further, the first paper ejection tray 16 is arranged at an angle of inclination of θ2 and the front end of each sheet of paper is positioned higher than the rear end thereof, so that the sheets of paper P of the bundle precedingly sent onto the first paper ejection tray 16 are not pressed out by contact with the front end of the succeeding sheet bundle T. Further, even if the preceding sheet bundle T is slightly shifted by the succeeding sheets of paper P, the angle of inclination θ2 is provided, so that the sheet bundle T drops by its own weight and is matched and loaded on the first paper ejection tray 16 in the state that the rear ends are properly arranged, and the stapling process of the sheets of paper P is completed.

Next, a case that the stapling process which is the post process is to be performed and a preceding sheet of paper P during execution of the stapling process remains on the processing tray 12 will be described. At this time, the standby tray 10 slides and moves the tray members 10 a and 10 b from the positions indicated by the dotted lines shown in FIG. 11 respectively in the opposite direction of the direction of the arrow m and the opposite direction of the direction of the arrow n and can support the sheets of paper P in the positions indicated by the solid lines shown in FIG. 11. Further, the standby tray roller 28 is shifted upward not to disturb the sheets of paper P. Sheets of paper P which are ejected from the image forming apparatus 5 and supplied by the paper supply rollers 24 are loaded once on the standby tray 10 to wait for the processing tray 12 to become empty.

As shown in FIG. 14A, sheets of paper P conveyed powerfully from the paper supply rollers are stiff, so that the assist arm 13 and the standby tray 11 are rotated and moved upward (in the clockwise direction in the drawing). Therefore, the sheets of paper P move forward so as to be conveyed as linearly as possible. When the rear end of a sheet of paper P comes off the paper supply rollers 24, as shown in FIG. 14B, the paddle 44 rotates and assists dropping of the rear end of the sheet of paper P. Then, with respect to the assist arm 13 and the standby tray guide 11, the heavy front ends are in contact with the sheet of paper P, so that the rear end of the sheet of paper P is immediately pressed against the standby tray 11. As a result, the rear end of the first sheet of paper P is retained surely by the chuck 15.

The second and subsequent sheets of paper P loaded on the standby tray 10, by the standby tray roller 28 which moves down on the standby tray 10 and rotates in the opposite direction of the direction of the arrow f, are sent toward the standby stoppers 10 c and 10 d and are vertically matched in a state that the rear end of each sheet of paper P is in contact with the standby stoppers 10 c and 10 d. Furthermore, the standby tray 10 is arranged at an angle of inclination of θ1 and the front end of each sheet of paper is positioned higher than the rear end thereof, so that the rear end of each sheet of paper P makes contact with the standby stoppers 10 c and 10 d and the sheets of paper are vertically matched.

Since the sheets of paper P are matched accurately on the standby tray 10 like this, even if a sheet of paper P is supplied from the paper supply rollers 24 in the state that it is curved convexly and supplied onto the standby tray 10, the sheet of paper P precedingly loaded on the standby tray 10 is not pressed out by contact with the front end of the succeeding sheet of paper P. Namely, the supplied sheet of paper P is sequentially loaded on the first paper ejection tray 16 unless the order is disturbed.

When the preceding sheet of paper P on the processing tray 12 is ejected on the side of the first paper ejection tray 16 and the processing tray 12 becomes empty, the standby tray 10 slides and moves the tray members 10 a and 10 b respectively in the direction of the arrow m and the direction of the arrow n from the positions indicated by the solid lines shown in FIG. 11 via the positions indicated by the alternate long and short dash lines shown in FIG. 11 up to the positions indicated by the dotted lines shown in FIG. 11. By doing this, for example, two sheets of paper P waiting on the standby tray 10, when the tray members 10 a and 10 b reach the positions indicated by the alternate long and short dash lines shown in FIG. 11, are dropped and supplied onto the processing tray 12 through the interval between the tray members 10 a and 10 b. At this time, the interval between the horizontal matching plates 47 a and 47 b is made almost equal to the width of the sheets of paper P. Therefore, the sheets of paper P dropped from the standby tray 10 are matched horizontally with both sides controlled by the horizontal matching plates 47 a and 47 b.

The lower side sheet of paper P of the two sheets of paper P dropped on the processing tray 12 is sent in the direction of the arrow q by the lower vertical matching roller 38 b rotating in the opposite direction of the direction of the arrow s, and the rear end of the sheet of paper P makes contact with the stopper 45, and the vertical matching of the sheet of paper P is completed. The upper side sheet of paper P of the two sheets of paper P dropped on the processing tray 12 is sent in the direction of the arrow q by the upper vertical matching roller 38 a rotating in the opposite direction of the direction of the arrow r, and the rear end of the sheet of paper P makes contact with the stopper 45, and the vertical matching of the sheet of paper P is completed, and hereafter the upper vertical matching roller 38 a is shifted upward.

The third and subsequent sheets of paper P ejected from the image forming apparatus 5 are directly dropped and supplied onto the processing tray 12 from the interval between the tray members 10 a and 10 b unless they wait on the standby tray 10. Hereafter, the third and subsequent sheets of paper P are sequentially matched on the sheets of paper P loaded on the processing tray 12 before the paddle 44.

When sheets of paper P loaded on the processing tray 12 reach a predetermined number of sheets, the sheets of paper P are stapled by the stapler 14 and a sheet bundle T is formed. Hereafter, the sheet bundle T is conveyed toward the first paper ejection tray 16 by the upper and lower vertical matching rollers 38 a and 38 b, and moreover the rear end thereof is caught by the feeding pawl 50 a of the conveying belt 50, and the bundle is sent onto the first paper ejection tray 16, and the stapling process of the sheets of paper P is completed.

In this embodiment structured like this, there is no need to install an exclusive path for sheets of paper requiring no post process, so that the cost of the sheet finishing apparatus can be decreased. Further, the horizontal matching member is structured simply and sure horizontal matching can be realized. Furthermore, the time up to paper ejection can be shortened compared with paper ejection via the processing tray.

Further, in the present invention, the post process performed for sheets of paper loaded on the processing tray is the stapling process. However, the post process is not limited to the stapling process and for example, the post process such as a hole punching (hole boring) process performed for sheets of paper is not questionable. In this case, one sheet of paper instead of a plurality of sheets of paper may be loaded unquestionably on the processing tray. Further, needless to say, for a post processing apparatus having such a post processing mechanism, the present invention produces an effect.

Although exemplary embodiments of the present invention have been shown and described, it will be apparent to those having ordinary skill in the art that a number of changes, modifications, or alterations to the invention as described herein may be made, none of which depart from the spirit of the present invention. All such changes, modifications, and alterations should therefore be seen as within the scope of the present invention. 

1. A sheet finishing apparatus for post-processing sheets of paper after image forming comprising: a pair of paper supply rollers for receiving and conveying sheets of paper ejected from an image forming apparatus, a standby tray for making said sheets of paper ejected from said paper supply rollers stand by, a processing tray arranged under said standby tray for loading said sheets of paper dropped and supplied from said standby tray and/or said sheets of paper ejected from said image forming apparatus not via said standby tray, a processing mechanism for post-processing said sheets of paper loaded on said processing tray, a paper ejection tray for loading said post-processed sheets of paper ejected from said processing tray, and a horizontal matching member for matching horizontally said sheets of paper ejected from said paper supply rollers to said standby tray, wherein: said horizontal matching member is composed of a horizontal matching damper portion, when horizontally matching said sheets of paper, for mitigating a shock to a side of each of said sheets of paper and a horizontal matching plate portion which supports said horizontal matching damper portion and is connected to it via a connection portion having elastic force.
 2. A sheet finishing apparatus according to claim 1 wherein: said horizontal matching plate portion, except said connection portion, is hollowed out in an inner peripheral shape almost similar to an outer peripheral shape of said horizontal matching damper portion.
 3. A sheet finishing apparatus according to claim 1 wherein: said horizontal matching damper portion is positioned one step higher than said horizontal matching plate portion.
 4. A sheet finishing apparatus according to claim 1 wherein: a part of said horizontal matching plate is made elastic.
 5. A sheet finishing apparatus according to claim 1 wherein: said horizontal matching plate portion is composed of a rigid body and said horizontal matching damper portion is composed of an elastic body.
 6. A sheet finishing apparatus according to claim 1 wherein: both said horizontal matching plate portion and said horizontal matching damper portion are composed of an elastic body.
 7. A sheet finishing apparatus according to claim 1 wherein: said horizontal matching damper portion and said horizontal matching plate portion are molded and connected so as to be provided with elastic force. 